Automatic transmission and adjusting method of gap in axial direction of automatic transmission

ABSTRACT

An automatic transmission comprises a transmission mechanism including plural planetary gear sets, a transmission case storing the transmission mechanism, and an end cover closing an opening at one end of the transmission case. A planetary gear set disposed the closest to the end cover is assembled in such a manner that before the end cover is attached to the transmission case, a sun gear is assembled to the transmission case and a pinion carrier is assembled to the end cover. A thrust washer is disposed between an end face of the sun gear and an end face of an inner peripheral portion of the pinion carrier. The thrust washer is a member for adjusting a gap which is formed in an axial direction in the transmission case, and the member is selected from plural ones which have different axial thicknesses from each other.

BACKGROUND OF THE INVENTION

The present invention relates to an automatic transmission comprising atransmission mechanism including plural planetary gear sets, and anadjusting method of a gap in an axial direction of the automatictransmission.

In general, an automatic transmission for an automotive vehicle ismanufactured by assembling a transmission mechanism, such as planetarygear sets, clutches, and brakes, to a cylindrical transmission case.Plural parts of the transmission mechanism are assembled in an axialdirection through an opening of the transmission case located on a sideopposite to a torque converter in a specified order, and eventually anend cover is disposed so as to close the opening of the transmissioncase. In case there is a partition wall to divide the inside of thetransmission case into two parts in the axial direction, such parts maybe assembled toward the partition wall in the axial direction from bothsides. Accordingly, the more the parts number is, the longer themanufacturing time becomes.

In order to reduce the manufacturing time, some parts may be assembledoutside the transmission case as a subassembly, then the subassembly maybe assembled into the transmission case. For example, Japanese PatentLaid-Open Publication No. 2007-078191 discloses an automatictransmission in which some parts including brakes, pistons and so on areassembled to the end cover to form such a subassembly.

Herein, many parts of the transmission mechanism of the automatictransmission are disposed side by side in the axial direction, so anentire axial length may tend to be too long or too short. In case theentire axial length is too long, a gap between the parts becomes sonarrow that the lubricating oil may not be supplied into the gapsufficiently, resulting in an increase of friction generated between theparts. Meanwhile, in case the entire axial length is too short, the gapbetween the parts becomes so wide that there may occur improper shakingof the parts. Thus, the performance or durability of the automatictransmission would deteriorate in the above-described cases.

Herein, an adjustment of such gap in the axial direction may beconducted by using a washer which may be selected from plural washerswhich have different axial thicknesses from each other in order to copewith the above-described problems.

Specifically, at first, all parts of the transmission mechanism areassembled into the transmission case in such a manner that those are putaside toward one side in the axial direction to make the gap betweenparts minimum. Then, the axial location of one member of parts which islocated on the other side is measured, and a proper washer having theappropriate axial thickness is selected based on the difference betweenthe above-described measured axial location and an axial location of themember which is in a use state at the operation of the transmissioncase, that is, based on total gaps between the parts during theoperation of the transmission case, thereby properly adjusting the gapsbetween the parts in the axial direction at the operation of thetransmission case.

According to the automatic transmission of the above-described patentpublication, however, the parts of the transmission mechanism areassembled separately to the transmission case and the end cover, so thatall of the parts are not assembled into the transmission case until theend cover closes the opening of the transmission case. Accordingly, themeasurement of the gap in the axial direction could not be conducted.Thus, the adjustment of the gap in the axial direction by using thewasher could not be conducted easily.

SUMMARY OF THE INVENTION

Accordingly, an object of the present invention is to provide anautomatic transmission and an adjusting method of a gap in an axialdirection of the automatic transmission which can easily conduct the gapadjustment.

According to the present invention, there is provided an automatictransmission, comprising a transmission mechanism including pluralplanetary gear sets, a transmission case storing the transmissionmechanism therein, and an end cover closing an opening at one end of thetransmission case, wherein one of the plural planetary gear sets whichis disposed the closest to the end cover is assembled in such a mannerthat before the end cover is attached to the transmission case, a sungear thereof is assembled to the transmission case and a pinion carrierthereof is assembled to the end cover, and a thrust bearing member isdisposed between an end face of the sun gear and an end face of an innerperipheral portion of the pinion carrier, the thrust bearing memberbeing a member for adjusting a gap which is formed in an axial directionin the transmission case, the member being selected from plural oneswhich have different axial thicknesses from each other.

According to the present invention, the thrust bearing member which isselected from plural ones which have different axial thicknesses fromeach other is disposed between the pinion carrier of the planetary gearset which is assembled to the end cover and the sun gear of theplanetary gear set which is assembled to the transmission case. Theproper gap can be easily provided in the transmission case by theproperly selected thrust bearing member. Further, this thrust bearingmember can be disposed without detaching the parts of the transmissionmechanism including the pinion carrier which are assembled to the endcover or the parts of the transmission mechanism including the sun gearwhich are assembled to the transmission case.

According to an embodiment of the present invention, the thrust bearingmember comprises a thrust bearing and a thrust washer, and the memberfor adjusting a gap is the thrust washer. Thereby, since the washer hasa simple shape, it can be made easy to prepare the washers havingdifferent thicknesses, thereby easily adjusting the gap in the axialdirection.

According to another embodiment of the present invention, the thrustbearing is disposed on a side of the sun gear, and the thrust washer isdisposed on a side of the pinion carrier. Thereby, the thrust bearinghaving the constant thickness can be assembled to the transmission casein advance, so the axial gap for the selection of the proper washer canbe measured easily.

According to another embodiment of the present invention, means forpreventing the pinion carrier which has been assembled to the end coverfrom dropping off the end cover is provided. Thereby, the pinion carriercan be prevented by the means from dropping off the end cover when theend cover is attached to the transmission case which is disposed withits opening facing upward, thereby improving the assembling of theautomatic transmission.

According to another embodiment of the present invention, the means is apiston cylinder which is disposed at a specified location on an outerperipheral side of the planetary gear set and stores a piston forpressing frictional elements of a brake device which is assembled intothe end cover, an inner peripheral portion of the piston cylinder beinglocated on a side of the transmission case at substantially the sameposition as an outer peripheral portion of the pinion carrier in aradial direction. Thereby, since the piston cylinder functions as themeans for preventing the pinion carrier from dropping off, it may beunnecessary for any other additional member for preventing the pinioncarrier from dropping off to be provided at the end cover.

According to another embodiment of the present invention, a recessportion is formed at the end face of the sun gear, and the thrustbearing member is stored in the recess portion. Thereby, the axiallength of the automatic transmission can be made short.

According to another aspect of the present invention, there is providedan adjusting method of a gap in an axial direction of an automatictransmission which comprises a transmission mechanism including pluralplanetary gear sets, a transmission case storing the transmissionmechanism therein, and an end cover closing an opening at one end of thetransmission case, the method comprising steps of: before the end coveris attached to the transmission case, a sun gear of one of the pluralplanetary gear sets which is disposed the closest to the end cover beingassembled to the transmission case and a pinion carrier thereof beingassembled to the end cover; and when the end cover is attached to thetransmission case, a thrust bearing member being disposed between an endface of the sun gear and an end face of an inner peripheral portion ofthe pinion carrier, wherein the thrust bearing member is a member foradjusting a gap which is formed in an axial direction in thetransmission case, and the member is selected from plural ones whichhave different axial thicknesses from each other. The adjusting methodof this aspect of the present invention can provide substantially thesame functions and advantages as the above-described automatictransmission.

According to an embodiment of this aspect of the present invention, thetransmission case and the end cover have contact faces to contact eachother, the distance from the contact face of the transmission case tothe end face of the sun gear and the distance from the contact face ofthe end cover to the end face of the inner peripheral portion of thepinion carrier are measured respectively, and the selection of themember of the thrust bearing member is selected based on the measurementof the distances. Thereby, the necessary measurements for the selectionof the proper thrust bearing member can be conducted easily.

According to another embodiment of this aspect of the present invention,after the pinion carrier has been assembled to the end cover, a memberto prevent the pinion carrier from dropping off the end cover isattached to the end cover, then the thrust bearing member is placed onthe end face of the sun gear in a state in which the transmission caseis disposed with the opening thereof facing upward, and the end cover isattached to the transmission case from above. Thereby, the end cover canbe attached to the transmission case easily.

Other features, aspects, and advantages of the present invention willbecome apparent from the following description which refers to theaccompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a skeleton diagram of an automatic transmission according toan embodiment of the present invention.

FIG. 2 is a connection table of the automatic transmission of FIG. 1.

FIG. 3 is a sectional view of a part of the automatic transmission inwhich an adjustment of a gap in an axial direction is conductedaccording to the present invention.

FIG. 4 is a sectional view of another part at a different location in aperipheral direction from FIG. 3.

FIG. 5 is a view to explain a measurement for selecting a thrust washerfor adjusting a gap in the axial direction.

FIG. 6 is a view to explain another measurement for selecting the thrustwasher for adjusting the gap in the axial direction.

FIG. 7 is a view to show a state in which an end cover is attached to abody portion of a transmission case with the thrust washer disposed.

FIG. 8 is a view to show another embodiment of the thrust washer foradjusting the gap in the axial direction.

DETAILED DESCRIPTION OF THE INVENTION

Hereinafter, preferred embodiments of the present invention will bedescribed.

Embodiment 1

FIG. 1 is a skeleton diagram of an automatic transmission according toan embodiment of the present invention. The present automatictransmission 1, which is applied to an automotive vehicle with alaterally disposed engine, such as a front-engine front-drive type ofvehicle, comprises a torque converter 3 attached to an engine outputshaft 2, a first clutch 10 and a second clutch 20 to which a power fromthe torque converter 3 is inputted via an input shaft 4, and atransmission mechanism 30 to which the power is inputted from one of orboth of the clutches 10, 20. These elements are stored in a transmissioncase 5 and disposed on an axis of the input shaft 4.

The transmission case 5 comprises a body portion 5 a which forms anouter periphery, a front (torque-converter side) wall 5 b which storesan oil pump 6 therein which is driven by an engine via the torqueconverter 3, an end cover 5 c which covers an opening at a rear (antitorque-converter side) end portion of the body portion 5 a, and a middlewall 5 d which is provided at a middle portion of the body portion 5 a.

The first and second clutches 10, 20 are stored between the front wall 5b and the middle wall 5 d, and the transmission mechanism 30 is storedbetween the middle wall 5 d and the end cover 5 c. An output gear 7 totake out the power from the transmission mechanism 30 is disposedbetween the clutches 10, 20 and the middle wall 5 d. The power taken outby the output gear 7 is transmitted to a differential gear 9 via acounter drive mechanism 8, thereby driving right and left drive axels 9a, 9 b.

The torque converter 3 comprises a case 3 a which is connected to theengine output shaft 2, a pump 3 b which is fixed in the case 3 a, aturbine 3 c which is disposed so as to face to the pump 3 b and drivenby the pump 3 b with operational oil, a stator 3 e which is providedbetween the pump 3 b and the turbine 3 c and supported at thetransmission case 5 via a one-way clutch 3 d so as to achieve a torqueincrease function, and a lockup clutch 3 f which is provided between thecase 3 a and the turbine 3 c and connects the engine output shaft 2 tothe turbine 3 c directly via the case 3 a. Thereby, the rotation of theturbine 3 c is transmitted to the first and second clutches 10, 20 andthe transmission mechanism 30 via the input shaft 4.

The transmission mechanism 30 comprises first, second and thirdplanetary gear sets 40, 50, 60 (hereinafter, referred to as “first,second and third gear sets”). These gear sets 40, 50, 60 are disposedbetween the middle wall 5 d and the end cover 5 c in the transmissioncase 5 in this order from the front side.

Further, in addition to the first and second clutches 40, 50, a firstbrake 70, a second brake 80, and a third brake 90, as frictionalelements of the transmission mechanism 30, are disposed in this orderfrom the front side. Further, a one-way clutch 100 is disposed besidethe first brake 70.

The first, second and third gear sets 40, 50, 60, which are a singlepinion type of planetary gear set, respectively comprise sun gears 41,51, 61, plural pinions 42, 52, 62 to engage with the sun gears 41, 51,61, carriers (pinion carries) 43, 53, 63 to support the pinions 42, 52,62 respectively, and ring gears 44, 54, 64 to engage with the pinions42, 52, 62.

The input shaft 4 is connected to the sun gear 61 of the third gear set60. The sun gear 41 of the first gear set 40 and the sun gear 51 of thesecond gear set 50, the ring gear 44 of the first gear set 40 and thecarrier 53 of the second gear set 50, and the ring gear 54 of the secondgear set 50 and the carrier 63 of the third gear set 60 are connected,respectively. The output gear 7 is connected to the carrier 43 of thefirst gear set 40.

The sun gear 41 of the first gear set 40 and the sun gear 51 of thesecond gear set 50 are connected to an output shaft 11 of the firstclutch 10 and then connected to the input shaft 4 via the first clutch10. The carrier 53 of the second gear set 50 is connected to an outputshaft 21 of the second clutch 20 and then connected to the input shaft 4via the second clutch 20.

Further, the ring gear 44 of the first gear set 40 and the carrier 53 ofthe second gear set 50 are connected to the transmission case 5 via thefirst brake 70 and the one-way clutch 100. The ring gear 54 of thesecond gear set 50 and the carrier 63 of the third gear set 60 areconnected to the transmission case 5 via the second brake 80. The ringgear 64 of the third gear set 60 is connected to the transmission case 5via the third brake 90.

The automatic transmission 1 having the above-described structureachieves shifts for the six-forward gears and a reverse gear bycombination of connection of the first and second clutches 10, 20 andthe first, second and third brakes 70, 80, 90. Relationships between thecombination and the selected gears are shown by a connection table ofFIG. 2.

That is, the first clutch 10 and the first brake 70 are connected toeach other in the first gear, where the rotation of the input shaft 4 isinputted to the sun gear 41 of the first gear set 40 with a great speedreduction by the first gear set 40, and then outputted from the carrier43 of the first gear set 40 to the output gear 7. Herein, the firstbrake 70 is connected only in the first gear state where the enginebrake works. In the first gear state where the engine brake does notwork, the one-way clutch 100 is locked up for accomplishing the firstgear.

In the second gear, the first clutch 10 and the second brake 80 areconnected to each other, where the rotation of the input shaft 4 isinputted to the sun gear 41 of the first gear set 40 and at the sametime inputted to the ring gear 44 of the first gear set 40 via thesecond gear set 50 with a smaller ratio of speed reduction than thefirst gear, and then outputted from the carrier 43 of the first gear set40 to the output gear 7.

In the third gear, the first clutch 10 and the third brake 90 areconnected to each other, where the rotation of the input shaft 4 isinputted to the sun gear 41 of the first gear set 40 and at the sametime inputted to the ring gear 44 of the first gear set 40 via the thirdgear set 60 and the second gear set 50 with a smaller ratio of speedreduction than the second gear, and then outputted from the carrier 43of the first gear set 40 to the output gear 7.

In the fourth gear, the first clutch 10 and the second clutch 20 areconnected to each other, where the rotation of the input shaft 4 isinputted to the sun gear 41 of the first gear set 40 and at the sametime inputted to the ring gear 44 of the first gear set 40 via thesecond gear set 50 directly. Thereby, the whole first gear set 40rotates along with the input shaft 4, so that the rotation of the inputshaft 4 is outputted from the carrier 43 to the output gear 7 with thespeed reduction ratio of 1.

In the fifth gear, the second clutch 20 and the third brake 90 areconnected to each other, where the rotation of the input shaft 4 isinputted to the ring gear 44 of the first gear set 40 via the secondgear set 50 directly and at the same time inputted to the sun gear 41 ofthe first gear set 40 via the third gear set 630 and the second gear set50. Thereby, the rotation of the input shaft 4 is outputted from thecarrier 43 of the first gear set 40 to the output gear 7 with the speedincrease.

In the sixth gear, the second clutch 20 and the second brake 80 areconnected to each other, where the rotation of the input shaft 4 isinputted to the ring gear 44 of the first gear set 40 via the secondgear set 50 directly and at the same time inputted to the sun gear 41 ofthe first gear set 40 via the second gear set 50. Thereby, the rotationof the input shaft 4 is outputted from the carrier 43 of the first gearset 40 to the output gear 7 with a greater speed increase ratio than thefifth gear.

Further, in the reverse gear, the first brake 70 and the third brake 90are connected, where the rotation of the input shaft 4 is inputted tothe sun gear 41 of the first gear set 40 via the second gear set 60 andthe third gear set 50. Herein, the rotational direction is reversed bythe second gear set 50, so that the rotation of the input shaft 4 isoutputted from the carrier 43 of the first gear set 40 to the outputgear 7 with a reverse rotation.

As described, the transmission mechanism 30 which comprises two clutches10, 20, three single-pinion type of planetary gear sets 40, 50, 60 andthree brakes 70, 80, 90 materializes the automatic transmission 1 whichachieves shifts for the six-forward gears and the reverse gear withthese components.

Hereinafter, the adjustment of the gap in the axial direction in thetransmission case according to the present invention will be describedreferring to the sectional view of the automatic transmission of FIG. 3.

FIG. 3 shows a part of the automatic transmission between the middlewall 5 d of the transmission case 5 and the end cover 5 c, where theadjustment in the axial direction is conducted.

The end cover 5 c is of a substantially cylindrical shape having abottom as shown and has a flange portion 51 c at its rear-side outerperiphery. The end cover 5 c is fixed to the body portion 5 a of thetransmission case 5 with bolts 102 at the flange portion 51 c.

Further, the end cover 5 c constitutes a subassembly together with twobrakes 80, 90 and a part of elements of the gear seat 60 which islocated the closest to the end cover 5 c, which are assembled to the endcover 5 c.

The two brakes 80, 90 are multi-plate clutches with plural frictionalplates 81, 91. Parts of the respective plural frictional plates 81, 91engage with a spline tooth 5 c 3 which is formed at an inner peripheryof a cylindrical portion 5 c 2 of the end cover 5 c via a splineconnection. The rest of the plural frictional plates 81 engage with aspline tooth 63 a which is formed at the carrier (front-side) 63 of thegear set 60 via the spline connection. The rest of the plural frictionalplates 91 engage with a spline tooth 104 a which is formed at an outerperiphery of a transmission member 102 which is of a substantiallycylindrical shape having a bottom and fixed to a rear end of the ringgear 64 of the gear set 60.

Herein, an inner peripheral portion of the transmission member 104 issupported in the axial direction by a thrust bearing 106 which isdisposed on the side of the end cover 5 c and a thrust bearing 108 whichis disposed on the side of the inner peripheral portion of the carrier(rear-side) 63.

Further, a piston 82 of the brake 80 is supported at a piston cylinder112 which is fixed to a front-side end of the cylindrical portion 5 c 2of the end cover 5 c by a bolt 110 so as to slide in the axialdirection. Meanwhile, a piston 92 of the brake 90 is supported at aring-shaped groove 5 c 4 which is formed at the end cover 5 c so as toslide in the axial direction.

A return spring 83 of the brake 80, as shown in FIG. 4 which is asectional view of another part at a different location in a peripheraldirection from FIG. 3, is disposed on an outer peripheral side of theplural frictional plates 81 in such a manner that one end of that issupported at a spring support plate 84 which is provided between thefrictional plate 81 disposed the closest to the piston and the piston 82and the other end of that is supported at a retaining plate 85 which isprovided on the opposite side from the plural frictional plates 81. Thespring support plate 84 engages with the spline tooth 5 c 3 via thespline connection so as to move in the axial direction, and theretaining plate 85 engages with the spline tooth 5 c 3 via the splineconnection in a state in which its move toward the rear side beyond aspecified position is limited.

A return spring 93 of the brake 90 is disposed on an outer peripheralside of the plural frictional plates 91 in such a manner that one end ofthat is supported at a spring support plate 94 which is provided betweenthe frictional plate 91 disposed the closest to the piston and thepiston 92 and the other end of that is supported at a retaining plate 95which is provided on the opposite side from the plural frictional plates91. The spring support plate 94 engages with the spline tooth 5 c 3 viathe spline connection so as to move in the axial direction, and theretaining plate 95 engages with the spline tooth 5 c 3 via the splineconnection in a state in which its move toward the rear side beyond aspecified position is limited.

Returning to FIG. 3, the gear set 60, pinion 62, carrier 63 and ringgear 64 are assembled to the end cover 5 c as a unit. Specifically, theyare assembled in a state in which the inner periphery of the carrier 63(rear-side) is supported via a radial bearing 114 at a boss portion 5 c5 which is formed at a central portion of the end cover 5 c and projectstoward the front side. This boss portion 5 c 5 is of a cylindrical shapeand supports a rear-side end of the input shaft 4 via a radial bearing116.

The outer peripheral portion of the carrier (front-side) 63 and theinner peripheral portion of the piston cylinder 112 are disposed side byside in the axial direction, that is, they are located almost at thesame position in the radial direction. Accordingly, once the pistoncylinder 112 is attached to the cylindrical portion 5 c 2 of the endcover 5 c, the elements of the gear set 60 except the sun gear 61 cannotbe detached from the end cover 5 c. In other words, the piston cylinder112 functions as a means for preventing those elements from droppingoff. Thus, any other additional member as such means may be unnecessary.

The sun gear 61 of the gear set 60 which is not assembled to the endcover 5 c is supported in the axial direction by a washer for adjustingthe gap in the axial direction (thrust washer) 118 and a thrust bearing120, which are disposed on the side of the carrier (rear-side) 63 and athrust bearing 122 which is disposed on the side of the carrier(rear-side) 53 of the gear set 50.

Further, a recess portion is formed at the end face of the sun gear 61,and the thrust bearing 120 is stored in the recess portion. That is, thesun gear 61 is formed so as to store the bearing 120 on the inside(front-side) from the rear-side end face. Thereby, the sun gear 61 andthe thrust bearing 120 are disposed in a space which has a shorterlength than the total of the axial lengths. Consequently, the axiallength of the automatic transmission can be made properly short.

Only the ring gear 54 of the gear set 50, a rear-side end of which isfixed to the carrier (front-side) 63 of the gear set 60, is assembled tothe end cover 5 c as the assembly. The elements of the gear set 50except the ring gear 54 are assembled to the body portion 5 a of thetransmission case 5 before the end cover 5 c is attached. The innerperipheral portion of the carrier (rear-side) 53 is supported in theaxial direction by the thrust bearing 122 and a thrust bearing 126 whichis disposed on the side of a rear-side end of a transmission member 124which interconnects the sun gear 51 of the gear set 50 and the sun gear41 of the gear set 40 to transmit the power.

The gear set 40, which has no element to be assembled to the end cover 5c as the subassembly, is assembled to the body portion 5 a of thetransmission case 5 before the end cover 5 c is attached. The carrier(front-side) 43 of the gear set 40 is supported in the axial directionby a thrust bearing 128 which is disposed on the side of a front-sideend of the transmission member 124 and an inner lace 130 a of a radialbearing 130.

The brake 70 and the one-way clutch 100 are assembled between the bodyportion 5 a and the gear set 40.

Hereinafter, the adjustment of the gap in the axial direction accordingto the present invention will be described.

Herein, the adjustment of the gap in the axial direction according tothe present invention means providing the proper gaps between the partsof the transmission mechanism which are disposed side by side in theaxial direction. In the present embodiment, the gap between the endcover 5 c and the transmission member 104, the gap between thetransmission member 104 and the carrier (rear-side) 63 of the gear set60, the gap between the carrier (rear-side) 63 and the sun gear 61 ofthe gear set 60, the gap between the sun gear 61 and the carrier(rear-side) 53 of the gear set 50, the gap between the carrier 53 andthe transmission member 124, the gap between the transmission member 124and the carrier (front-side) 43 of the gear set 40, and the gap betweenthe carrier 43 and the inner lace 130 a of the radial bearing 130 aremade proper respectively. In other words, the respective thrust bearings106, 108, 120, 122, 126 and 128, which are disposed at the respectivegaps except the gap between the carrier 43 and the inner lace 130 a ofthe radial bearing 130 which contact each other directly, are made movesmoothly without improperly shaking.

Specifically, in order to provide the proper gaps in the axialdirection, a proper washer having the appropriate axial thickness isselected from the plural washers which have different axial thicknessesfrom each other as the washer for adjusting the gap in the axialdirection 118 shown in FIG. 3.

Hereinafter, the method of selecting the proper washer having theappropriate axial thickness will be described.

At first, as shown in FIG. 5, the body portion 5 a of the transmissioncase 5 to which the brake 70, one-way clutch 100, gear set 40, gear set50 without the ring gear 54, sun gear 61 of the gear set 60, thrustbearings 120, 122, 126 and 128, and transmission member 124 areassembled is disposed with its rear-side opening facing upward.

Herein, since the axial direction of the automatic transmission becomessubstantially identical to the vertical direction, the gap between thesun gear 61 and the carrier 53, the gap between the carrier 53 and thetransmission member 124, and the gap between the transmission member 124and the carrier 43 can be made minimum in a natural state (without anexcessive contact pressure) respectively, having the thrust bearings122, 126 and 128 therein respectively which are disposed so as to movesmoothly without shaking. The gap between the carrier 43 and the innerlace 130 a of the radial bearing 130 which has no thrust bearing thereinbecomes minimum in the natural state.

In this state the axial distance d1 between the rear-side end face ofthe thrust bearing 120 which is disposed on the rear-side end face ofthe sun gear 61 and a contact pace 5 aP of the flange portion 5 a 1 ofthe transmission case 5 a is measured.

Meanwhile, as shown in FIG. 6, the assembly of the end cover 5 c isdisposed with its front side facing upward.

Herein, since the axial direction of the automatic transmission becomessubstantially identical to the vertical direction, the gap between theend cover 5 c and the transmission member 104 and the gap between thetransmission member 104 and the carrier (rear-side) 63 of the gear set60 can be made minimum in the natural state respectively, having thethrust bearings 106 and 108 therein respectively which are disposed soas to move smoothly without shaking. The gap between the carrier 43 andthe inner lace 130 a of the radial bearing 130 which has no thrustbearing therein becomes minimum in the natural state.

In this state the axial distance d2 between the front-side end face ofthe carrier (rear-side) 63 of the gear set 60 and a contact pace 5 cP ofthe flange portion 5 c 1 of the end cover 5 c is measured.

The contact face 5 aP of the flange portion 5 a 1 of the body portion 5a of the transmission case 5 shown in FIG. 5 and the contact face 5 cPof the flange portion 5 c 1 of the end cover 5 c shown in FIG. 6 aremade contact each other when the end cover 5 c is attached to the bodyportion 5 a as shown in FIG. 3. Based on the distances d1 and d2measured, the axial length of the gap between the carrier (rear-side) 63of the gear set 60 and the thrust bearing 120 in case the end cover 5 cis attached to the body portion 5 a of the transmission case 5 iscalculated keeping the state in which the gap is minimum.

The proper washer having the appropriate axial thickness is selectedbased on the calculated axial length of the gap between the carrier(rear-side) 63 and the thrust bearing 120. That is, the proper washerwhich can make the calculated axial length of the gap between thecarrier (rear-side) 63 and the thrust bearing 120 identical to the totallength of the proper gaps between the parts is selected.

The selected washer is provided in the gap between the carrier(rear-side) 63 and the thrust bearing 120, thereby providing the propergap between them.

Once the washer 118 is selected, as shown in FIG. 7, it is placed on therear-side end face of the thrust bearing 120 assembled to the bodyportion 5 a of the transmission case 5 with its opening facing upward.Then, the subassembly of the end cover 5 c with its front side facingupward is disposed above the body portion 5 a, and lowered toward thebody portion 5 a.

Herein, as shown in FIG. 7, the gear set 60 and others assembled to theend cover 5 c are received by the piston cylinder 112 so that they areprevented from dropping off the end cover 5 c. That is, the end cover 5c can be attached easily to the body portion 5 a of the transmissioncase 5 with its opening facing upward by the piston cylinder 112.

After the subassembly of the end cover 5 c is placed onto the opening ofthe body portion 5 a of the transmission case 5, that is, the bothcontact faces 5 cP, 5 aP contact each other, the end cover 5 c is fixedto the body portion 5 a with the bolt 102. Thereby, the washer 118 canprovide the proper gap in the axial direction inside the transmissioncase 5.

According to the present embodiment, the thrust bearing 120 and thewasher 118 which is selected from plural ones which have different axialthicknesses from each other are disposed between the pinion carrier 63of the gear set 60 assembled to the end cover 5 c and the sun gear 61 ofthe gear set 60 assembled to the body portion 5 a of the transmissioncase 5. The proper gap can be easily provided in the transmission case 5by the properly selected washer 118. Further, this washer 118 can bedisposed without detaching the parts of the transmission mechanism 30including the carrier 63 which are assembled to the end cover 5 c or theparts of the transmission mechanism 30 including the sun gear 61 whichare assembled to the body portion 5 a of the transmission case 5.

Further, the distance d1 from the contact face 5 aP of the body portion5 a 1 of the transmission case 5 to the rear-side end face of thrustbearing 120 disposed on the rear-side end face of the sun gear 61 andthe distance d2 from the contact face 5 cP of the end cover 5 c to thefront-side end face of the inner peripheral portion of the carrier(rear-side) 63 are measured respectively, and the selection of thewasher 118 which can provide the proper gap in the axial directioninside the transmission case 5 is selected based on the measurement ofthe distances. Thereby, the necessary measurements for the selection ofthe proper washer 118 can be conducted easily without attaching the endcover 5 c to the body portion 5 a of the transmission case 5.

Moreover, the adjustment of the gap in the axial direction is conductedby the washer selected from the plural ones having the different axialthicknesses. The washer has a simple shape, so it can be made easy toprepare the washers having different thicknesses, thereby easilyadjusting the gap in the axial direction.

While the thrust bearing id disposed on the side of the sun gear and thethrust washer is disposed on the side of the pinion carrier in theabove-described embodiment, they may be disposed reversely. In thiscase, the measurement d1 from the contact face 5 aP of the body portion5 a of the transmission case 5 to the rear-side end face of the thrustbearing 120 as shown in FIG. 5 should not be conducted, but the distancefrom the contact face 5 aP to the rear-side end face of the sun gear 61is necessary. Further, the selection of the thrust washer may benecessary considering the axial thickness of the thrust bearing.

Embodiment 2

While the thrust washer 118 and the thrust bearing 120 are disposed sideby side to adjust the gap in the axial direction in the above-describedembodiment shown in FIG. 3, this adjustment may be conducted only by thethrust bearing disposed in the gap between the pinion carrier of theplanetary gear set which is assembled to the end cover and the sun gearof the planetary gear set which is assembled to the transmission case,without using the thrust washer. In this different embodiment, pluralthrust bearings having the different axial thicknesses need to beprepared, and a proper thrust bearing is selected from those.

In this second embodiment, a thrust bearing 220, as shown in FIG. 8, maycomprise a roller 220 b and a pair of laces 220 a, 220 c, in which thelace 220 c is to be selected from plural prepared laces which havedifferent axial thicknesses.

The present invention should not be limited to the above-describedembodiments, and any other modifications and improvements may be appliedwithin the scope of a sprit of the present invention.

1. An automatic transmission, comprising: a transmission mechanismincluding plural planetary gear sets; a transmission case storing thetransmission mechanism therein; and an end cover closing an opening atone end of the transmission case, wherein one of said plural planetarygear sets which is disposed the closest to said end cover is assembledin such a manner that before the end cover is attached to saidtransmission case, a sun gear thereof is assembled to the transmissioncase and a pinion carrier thereof is assembled to the end cover, and athrust bearing member is disposed between an end face of said sun gearand an end face of an inner peripheral portion of said pinion carrier,the thrust bearing member being a member for adjusting a gap which isformed in an axial direction in the transmission case, said member beingselected from plural ones which have different axial thicknesses fromeach other.
 2. The automatic transmission of claim 1, wherein saidthrust bearing member comprises a thrust bearing and a thrust washer,and said member for adjusting a gap is the thrust washer.
 3. Theautomatic transmission of claim 2, wherein said thrust bearing isdisposed on a side of the sun gear, and said thrust washer is disposedon a side of the pinion carrier.
 4. The automatic transmission of claim3, wherein means for preventing the pinion carrier which has beenassembled to the end cover from dropping off the end cover is provided.5. The automatic transmission of claim 4, wherein said means is a pistoncylinder which is disposed at a specified location on an outerperipheral side of said planetary gear set and stores a piston forpressing frictional elements of a brake device which is assembled intothe end cover, an inner peripheral portion of the piston cylinder beinglocated on a side of the transmission case at substantially the sameposition as an outer peripheral portion of the pinion carrier in aradial direction.
 6. The automatic transmission of claim 5, wherein arecess portion is formed at said end face of the sun gear, and saidthrust bearing member is stored in the recess portion.
 7. The automatictransmission of claim 1, wherein means for preventing the pinion carrierwhich has been assembled to the end cover from dropping off the endcover is provided.
 8. The automatic transmission of claim 7, whereinsaid means is a piston cylinder which is disposed at a specifiedlocation on an outer peripheral side of said planetary gear set andstores a piston for pressing frictional elements of a brake device whichis assembled into the end cover, an inner peripheral portion of thepiston cylinder being located on a side of the transmission case atsubstantially the same position as an outer peripheral portion of thepinion carrier in a radial direction.
 9. The automatic transmission ofclaim 1, wherein a recess portion is formed at said end face of the sungear, and said thrust bearing member is stored in the recess portion.10. An adjusting method of a gap in an axial direction of an automatictransmission which comprises a transmission mechanism including pluralplanetary gear sets, a transmission case storing the transmissionmechanism therein, and an end cover closing an opening at one end of thetransmission case, the method comprising steps of: before said end coveris attached to said transmission case, a sun gear of one of said pluralplanetary gear sets which is disposed the closest to said end coverbeing assembled to the transmission case and a pinion carrier thereofbeing assembled to the end cover; and when the end cover is attached tothe transmission case, a thrust bearing member being disposed between anend face of said sun gear and an end face of an inner peripheral portionof said pinion carrier, wherein the thrust bearing member is a memberfor adjusting a gap which is formed in an axial direction in thetransmission case, and the member is selected from plural ones whichhave different axial thicknesses from each other.
 11. The adjustingmethod of a gap in an axial direction of an automatic transmission ofclaim 10, wherein said transmission case and said end cover have contactfaces to contact each other, the distance from the contact face of thetransmission case to said end face of the sun gear and the distance fromthe contact face of the end cover to said end face of the innerperipheral portion of the pinion carrier are measured respectively, andsaid selection of the member of the thrust bearing member is selectedbased on said measurement of the distances.
 12. The adjusting method ofa gap in an axial direction of an automatic transmission of claim 11,wherein after said pinion carrier has been assembled to said end cover,a member to prevent the pinion carrier from dropping off the end coveris attached to the end cover, then said thrust bearing member is placedon said end face of the sun gear in a state in which the transmissioncase is disposed with the opening thereof facing upward, and the endcover is attached to the transmission case from above.
 13. The adjustingmethod of a gap in an axial direction of an automatic transmission ofclaim 12, wherein said thrust bearing member comprises a thrust bearingand a thrust washer, and said member for adjusting a gap is the thrustwasher.
 14. The adjusting method of a gap in an axial direction of anautomatic transmission of claim 13, wherein said thrust bearing isdisposed on a side of the sun gear, and said thrust washer is disposedon a side of the pinion carrier.
 15. The adjusting method of a gap in anaxial direction of an automatic transmission of claim 10, wherein aftersaid pinion carrier has been assembled to said end cover, a member toprevent the pinion carrier from dropping off the end cover is attachedto the end cover, then said thrust bearing member is placed on said endface of the sun gear in a state in which the transmission case isdisposed with the opening thereof facing upward, and the end cover isattached to the transmission case from above.
 16. The adjusting methodof a gap in an axial direction of an automatic transmission of claim 15,wherein said thrust bearing member comprises a thrust bearing and athrust washer, and said member for adjusting a gap is the thrust washer.17. The adjusting method of a gap in an axial direction of an automatictransmission of claim 16, wherein said thrust bearing is disposed on aside of the sun gear, and said thrust washer is disposed on a side ofthe pinion carrier.